Abstract: A rotational antenna includes a stationary feed which is disposed in a substantially vertical orientation. A parabolic dish is rotationally mounted about the stationary feed in a state of being tipped with respect to the stationary, substantially vertically oriented feed. The rotational parabolic antenna may alternatively be provided with a rotating radio frequency (RF) and acoustic feed. Other embodiments are disclosed.
Abstract: A rotational antenna includes a stationary feed which is disposed in a substantially vertical orientation. A parabolic dish is rotationally mounted about the stationary feed in a state of being tipped with respect to the stationary, substantially vertically oriented feed. The rotational parabolic antenna may alternatively be provided with a rotating radio frequency (RF) and acoustic feed. Other embodiments are disclosed.
Type:
Grant
Filed:
May 26, 2010
Date of Patent:
February 12, 2013
Assignee:
DeTect, Inc.
Inventors:
Scott Andrew McLaughlin, Megan Maureen Sloan, Elias Moises Lau
Abstract: A rotational antenna includes a stationary feed which is disposed in a substantially vertical orientation. A parabolic dish is rotationally mounted about the stationary feed in a state of being tipped with respect to the stationary, substantially vertically oriented feed. The rotational parabolic antenna may alternatively be provided with a rotating radio frequency (RF) and acoustic feed. Other embodiments are disclosed.
Type:
Application
Filed:
May 26, 2010
Publication date:
December 1, 2011
Applicant:
DETECT, INC.
Inventors:
SCOTT ANDREW MCLAUGHLIN, MEGAN MAUREEN SLOAN, ELIAS MOISES LAU
Abstract: A detection system and method having at least one detection unit, and a control center unit. The detection unit includes at least one sensor configured to generate sensor data correlated to sensed conditions, a locator for actively determining location data corresponding to the location of the detection unit, and a communicator configured to communicate the sensor data and location data. The control center includes a receiver for receiving the sensor data and the location data, together with a control processor which is configured to determine a threat level correlated to the sensor data.
Type:
Grant
Filed:
July 11, 2008
Date of Patent:
September 27, 2011
Assignees:
Mobile Detect Inc.
Inventors:
Robert Cassin McFadden, Shannon Dinesh Lal, Christopher James McInnis Clarke
Abstract: An IR cell for the detection and measurement of breath alcohol is standardized by passing a dry gas carrier containing a known amount of alcohol through an IR cell the walls exposed to the standardizing mixture of which are, as to the alcohol, non-adsorbent.
Abstract: A method of measuring breath alcohol includes blowing breath in a stream through an inlet line, hence through an orifice, past a thermistor exposed to the stream, changing the temperature of the thermistor to a predetermined temperature in response to a predetermined volume of breath. The thermistor provides an output signal to trigger the measurement of alcohol in the breath by an alcohol detecting device. The method and apparatus permit the purging of the system to provide a base line reference for the alcohol detection device, then testing to ensure that the breath inlet line is clear of contamination, then running an alcohol standard sample through the alcohol detecting device, again purging the system, again testing to ensure that the breath inlet line is clear of contamination, recording the result as a blank test, and thereafter blowing breath through the inlet line to obtain a demonstratably accurate measurement of breath alcohol.
Abstract: A method and apparatus for discriminating between alcohol and acetone in a breath sample and accurately measuring the alcohol level when acetone is present in the sample. The breath sample is measured with two different types of detectors and their outputs compared. One detector uses the principles of infrared (IR) absorption, the other detector is a semiconductor, commonly called a Taguci cell, or its equivalent. Automatic correction is provided for variations in sensitivity of the semiconductor.